Mobile phone “farm patrol” and artificial intelligence management, irrigation without getting hands wet, planting vegetables without going to the fields, intelligent management and control systems replace manual “tending” of crops, and even agricultural “beginners” who have never farmed before. Achieve “smart” agriculture with the help of artificial intelligence.
Several countries agricultural Scientists, researchers and agricultural technicians specializing in ai agriculture did scientific research demonstration greenhouse and observed that the tomatoes cultivated without soil “drank” the nutrient solution for growth, and the different types of tomatoes were just at the right temperature and controlled by intelligence. They grew artificially. Employees were working with the picking robot to test the picking operation. The robot arm easily “picks” the tomatoes in a circular motion without breaking the vines.
Agricultural Scientists conducted a harvesting operation experiment using a harvesting robot developed by the few company. “In the past, we relied on experience to plant crops, but now we rely more on digital and smart planting and even use artificial intelligence to talk to crops. AI engineers are using AI algorithms to equip agricultural products with “smart eyes” and “digital brains” that can “sense” whether they are crops. They are “thirsty”, “hot”, “cold” or “sick”. the develop of agricultural robots for plant protection, picking, inspection and other purposes for different scenarios and crops, and continue to iterate to improve planting efficiency.”
Air sensors, soil sensors and water quality sensors are located between tomato plants and their vines. Cameras surround the greenhouse and there are other sensor terminals such as small outdoor weather stations. When the environmental sensor detects that the temperature of the greenhouse is too high, the intelligent management and control system will quickly start the water and fertilizer machine, drip irrigation and other devices. The intelligent management and control system implements the intelligent adjustment of water and fertilizer according to the season and the growth cycle of tomatoes so that the tomatoes grow better and the taste of tomatoes grows “.
Artificial Intelligence and Agriculture
Artificial intelligence (AI) is revolutionizing agriculture by introducing unprecedented levels of accuracy and efficiency across the industry. By applying AI algorithms and machine learning techniques, farmers can make data-driven decisions that improve crop yields, conserve resources, and increase sustainability. AI-powered systems analyze vast amounts of data collected from sensors, drones, and satellite imagery to provide insights into soil health, weather patterns, and crop conditions. This enables farmers to adjust irrigation schedules, apply fertilizers more precisely, and detect early signs of disease or pest infestation before they become widespread. Additionally, AI facilitates autonomous machinery and robotic systems that streamline labor-intensive tasks like planting, harvesting and sorting crops. As a result, AI not only improves productivity and profitability, but also contributes to a more environmentally friendly and resilient agricultural sector that is ready to meet the challenges of feeding a growing global population.
The intelligent management and control system can replace experienced farmers to “take care” of crops to a certain extent. “Based on data collected by sensors and combined with external weather forecasts, the intelligent management and control system monitors environmental parameters and implements automatic adjustment. External sunshade, internal insulation, skylight, damp curtain, fan Circulator, integrated water fertilizer device and other equipments are controlled by computer intelligence, but also comprehensively adjust indoor temperature, light, water, fertilizer, air, etc. so that crops grow in the best environment and nutritional conditions.
Approximately 48,000 square meters of area is required in the smart greenhouse that annual production of high-quality small tomatoes reaches in the smart greenhouse more than 20,000 kg per month, and the production of large tomatoes is even higher, and there is a lot of room to increase production. Smart greenhouses and plant factories are the current priorities for AI planting development. They have been used in the cultivation of tomatoes, strawberries, leafy vegetables and cucumbers. In the future, once the technology is upgraded and the bottlenecks are removed, it can be used. The movement towards large-scale planting is expected to accelerate. if any issue occur in the greenhouse their will be stuff on duty to solve it remotely or arrange for someone to check on site. Under conventional planting methods. several country like USA, China, Uk technology officials have focused on developing smart agriculture and promoting information technologies such as the Internet of Things, Big Data, cloud computing, and artificial intelligence across the entire agricultural industry. Through proper planting and irrigation management, water and fertilizer use can be reduced, and resource consumption can be reduced, AI can be important to used to monitor crop diseases and pests, and take timely measures to improve crop production and quality.